Unit 4: Renal Physiology Pt 1

Question 1

What type of organ is the kidney?

Answer 1

Excretory
Regulatory
Endocrine

Question 2

How are the kidneys excretory organs?

Answer 2

• excrete harmful substances

- excrete things that are in excess

Question 3

How are the kidneys regulatory organs?

Answer 3

• maintain constant volume
• maintain constant composition
• regulate pH

Question 4

How are the kidneys endocrine organs?

Answer 4

synthesizes and secretes at least three major hormones

Question 5

What are the three major hormones the kidney synthesizes and secretes?

Answer 5

1. Rening
2. Erythropoietin
3. 1,25-dihydroxycholecalciferol (aka Calcitriol)

Question 6

What does renin that is secreted by the kidney, stimulate?

Answer 6

stimulates angiotensin II formation and aldosterone secretion

Question 7

What does Erythropoietin that is secreted by the kidney, stimulate?

Answer 7

stimulates production of RBCs

Question 8

What effect does calcitriol (1,25-dihydroxycholecalciferol) have?

Answer 8

widespread effects including Ca++ absorption from the GI tract
- enhances immune function

(will increase Ca++ and Phosphate in ECF)

Question 9

What is the role of the renal system? (8)

Answer 9

1. Filtration, reabsorption, Secretion, Excretion
2. Water/electrolyte balance
3. pH regulation (HCO3-)
4. Control of circulating volume (BP control)
5. Hormone secretion (renin, erythropoitin, calcitriol)
6. site of hormone action
7. gluconeogenesis
8. dopamine production

Question 10

What does the kidney excrete for us?

Answer 10

Rid body of water soluble wastes

• urea
• creatine
• uric acid
• other water soluble metabolites

Eliminate toxins and foreign substances

• drugs
• pesticides
• additives

Question 11

What organ makes things more water soluble and therefore capable of being secreted?

Answer 11

the liver

Question 12

What do the kidneys keep electrolyte balance of?

Answer 12

water intake = water output
sodium intake = sodium output
sodium/potassium balance

Question 13

Does the kidney have a role in glucose regulation?

Answer 13

yes

• reabsorption of virtually all
• uptake of glucose for its own needs
• gluconeogenesis
• glycogenolysis

Question 14

In general, do we excrete or reabsorb most glucose? Where does this occur?

Answer 14

reabsorb most glucose in Proximal Convoluted Tubule

Question 15

Does the kidney uptake glucose for its own Energy needs dependent or independent of insulin?

Answer 15

independent of insulin

“BRICKLE”

Question 16

Can the kidney perform gluconeogenesis? If so, from what? When would this be more active?

Answer 16

yes; create glucose from:

• A.A.s (alanine)
• glycerol
• lactate

during periods of prolonged fasting

Question 17

Where are the kidneys located when standing? What space are they in?

Answer 17

L1-L4

in retroperitoneal space = space behind the peritoneum

Question 18

What does the Medulla of the kidney contain?

Answer 18

• 8-10 renal pyramids (top is called papilla)
• major calyces
• minor calyces

Question 19

What contracts in order to propel urine to bladder?

Answer 19

calyces, renal pelvis, and ureter

Question 20

What type of innervation does the kidney receive? How does it get to the kidney?

Answer 20

Sympathetic preganglionic fibers from T10-L2

Sympathetic postganlgionic fibers to kidney via Renal Plexus

Question 21

What do the sympathetic postganglionic fibers project to in the kidney?

Answer 21

individual nephrons

Question 22

What will SNS stimulation have on the nephrons? What will this cause?

Answer 22

• signals for CONSTRICTION of arterioles–> therefore decrease filtration rate and decrease urinary output
• can also signal kidney to: increase Na+ reabsorption and increase renin release

Question 23

What effect does SNS stimulation have on renin?

Answer 23

causes renin release–> stimulate RAAS–> (causes aldosterone release at the end which will tell kidney to take in more Na+, therefore bring H2O with and increase BP)

Question 24

What percentage of cardiac output do the kidneys use at rest?

Answer 24

22%

Question 25

What makes the blood flow of the kidneys unique?

Answer 25

2 sets of capillary beds and 2 sets of arterioles in series

Question 26

List the arterial blood flow of the kidney starting from the renal artery.

Answer 26

renal artery
interlobar arteries
arcuate arteries
cortical radial arteries
afferent arterioles
glomerular capillaries
efferent arteriole
peritubular capillaries

Question 27

What do afferent arterioles give rise to? What do efferent arterioles give rise to?

Answer 27

glomerular capillaries (drained by efferent arterioles)

peritubular capillaries

Question 28

What capillaries of the kidney is where filtraiton takes place? What about reabsorption and secretion?

Answer 28

filtration –> at glomerular capillaries

reabsorption–> at peritubular capillaries

Question 29

What keeps glomerular capillary filtration pressure constant?

Answer 29

efferent arteriole

Question 30

What type of pressure does the Glomerular capillaries have? What about the Peritubular capillaries? Why?

Answer 30

Glomerular–> high hydrostatic pressure (45 mmHg); causes rapid fluid filtration*

Peritubular–> lower hydrostatic pressure (13 mmHg); allows for rapid fluid reabsorption*

Question 31

List the order of blood flow out of the kidney beginning with the peritubular capillaries.

Answer 31

peritubular capillaries
interlobar vein
arcuate vein
interlobar vein
renal vein

Question 32

What is the functional unit of the kidney? About how many are in each kidney?

Answer 32

the nephron; ~800,000 - 1,000,000

Question 33

What are the two types of nephrons? Which do we have more of? Where are their glomerulus located?

Answer 33

1. Cortical Nephron (85%); glomerulus higher in cortex

2. Juxtamedullary nephron (15%); glomerulus closer to medulla

Question 34

What makes the Juxtamedullary nephron different than the Cortical nephron?

Answer 34

• glomerulus closer to medulla (instead of high up in cortex)
• sig. longer Loop of Henle
• penetrates deeper into medulla
• capable of concentrating urine*
• associated with Vasa recti

Question 35

What nephron is capable of concentrating urine?

Answer 35

Juxtamedullary nephron (only ~15% of nephrons)

Question 36

T/F. We can regenerate new nephrons.

Answer 36

false

Question 37

What what age is there a decrease in our number of nephrons? What is the measure of the decrease?

Answer 37

after ~ 40 years old there is a decrease

~ 10% loss every 10 years

Question 38

What percentage of original number of nephrons can we get by with to survive and before kidney failure occurs?

Answer 38

25%

you will die of something else before you die of losing nephrons

Question 39

What are the Glomerular capillaries encased inside?

Answer 39

Bowman’s capsule

Question 40

What is the order that fluid is filtered from the glomerular capillaries to the ureter?

Answer 40

Bowman's capsule-->
proximal tubule-->
loop of Henle-->
distal tubule-->
connecting tubule-->
collecting duct-->
renal pelvis--> and out

Question 41

What type of muscle is the urinary bladder and what are the two main parts?

Answer 41

smooth muscle

1. Body–> primary part of bladder where urine collects
2. Neck–> passes inf. and ant. from body and attaches to urethra

Question 42

What is the muscle in the bladder? What type of muscle is it made out of? How are the fibers arranged?

Answer 42

Detrusor mucles; smooth muscle of the bladder

fibers intertwined

Question 43

Does the Detrusor muscle have a low or high resistance to electrical impulses? What does this allow for?

Answer 43

Low-resistance to electrical impulses b/w ms cells

- action potential can spread quickly–> and whole bladder contracts at once

Question 44

What will the contraction of the Detrusor muscle increase the pressure by?

Answer 44

by 40-60 mmHg

Question 45

What is found on the posterior wall of the bladder? What enters at the upper part? What is the surface of it?

Answer 45

the Trigone

• ureters enter bladder at upper trigone
• Surface: smooth ms (other pt of bladder is folded rugae)

Question 46

How do the ureters enter the bladder? Do they remain open?

Answer 46

obliquely through detrusor muscle and penetrates 1-2 cm through detrusor and mucosa

no, tone of detrusor muscle shuts down the ureters–> preventing backflow of urine

Question 47

What is the posterior part of the urethra called? What it is composed of?

Answer 47

Bladder Neck
Composed of:
- detrusor muscle
- elastic tissue 
- internal sphincter

Question 48

What type of muscle is the internal sphincter of the urinary tract? What does it prevent?

Answer 48

smooth muscle under INvoluntary control

prevents emptying of bladder until pressure rises above the critical threshold

Question 49

What does the urethra pass through?

What is the external sphincter muscle made up of?

Answer 49

urogenital diaphragm

skeletal muscle–> under voluntary control (can consciously contract to prevent urination)

Question 50

What innervates the urinary bladder?

Answer 50

• Pudendal nerve
• Sympathetic innervation
• Pelvic nerves
• Sensory and Motor nerve fibers

Question 51

What innervates the external bladder sphincter? What type of control is this under?

Answer 51

Pudendal nerve; somatic nerve fibers; under voluntary control

Question 52

What does the urinary bladder receive sympathetic innervation through? What does this stimulate?

Answer 52

via hypogastric nerve (L2)

blood supply to bladder

Question 53

How does the urinary bladder receive its Pelvic Nerve innervation?

Answer 53

through the sacral plexus

- S2,S3 cord segments

Question 54

What do the sensory and motor fibers to the urinary bladder do?

Answer 54

sensory–> detect stretch of bladder wall

parasympathetic motor fibers–> innervate the Detrusor muscle

Question 55

What innervates the Detrusor muscle?

Answer 55

parasympathetic motor fibers

Question 56

What is the flow of urine starting at the nephron.

Answer 56

Nephron-->
collecting ducts-->
renal calyces-->
ureters-->
bladder

Question 57

When urine flows from the collecting ducts to the renal calyces, what does this cause?

Answer 57

peristaltic contractions that occur in the renal pelvis and ureters–> which forces urine from the kidneys to the bladder

Question 58

What innervates the ureters? What type of muscle are they?

Answer 58

sympathetic and parasympathetic nerves

smooth visceral muscle

Question 59

What causes the ureters to increase in contraction? What about decrease?

Answer 59

increase–> due to parasympathetic stimulation (pee)

decrease–> with sympathetic stimulation (store)

Question 60

What type of fibers do the ureters contain? What happens if there is a kidney stone?

Answer 60

a lot of PAIN fibers–> if severe pain due to kidney stone:

Ureterorenal Reflex occurs

Question 61

What occurs in when the Ureterorenal Reflex occurs?

Answer 61

Due to severe pain from kidney stone:

• Reflex constriction occurs
• Sympathetic reflex occurs back to the kidney
• -> constrict the renal arterioles
• -> decreases flow of fluid into the kidney with a blocked ureter

Question 62

What is the process of urinary bladder emptying when it is filled?

Answer 62

micturition

Question 63

What are the steps to getting the bladder to empty?

Answer 63

1. Bladder progressively fills–> tension on bladder walls raises above a threshold level
2. Micturition Reflex–> Nervous Reflex
3. Urge to Urinate–> external sphincter under voluntary control
4. Bladder empties

Question 64

What controls the Micturition reflex?

Answer 64

ANS–> coordinated by centers in the midbrain

Question 65

What part of the NS predominates when the bladder is filling? What happens to the detrusor ms and internal sphincter?

Answer 65

SNS control (“stores”)

• relaxation of detrusor muscle (beta2)
• contraction of internal sphincter (alpha1)

(external sphincter closed by trained voluntary action)

Question 66

What senses a full bladder? Where does this signal get sent?

Answer 66

sensed by mechanoreceptors (stretch receptors) in bladder wall–> spinal cord –> brain stem

Question 67

What part of NS is stimulated to empty the bladder?

Answer 67

PSNS control (“pee”)

• contraction of detrusor muscle will increase pressure in bladder
• relaxation of internal sphincter (urge to urinate)

(recall: voluntary control to relax external sphincter)

Question 68

What gives us the urge to urinate?

Answer 68

relaxation of the internal sphincter by the PSNS

Question 69

What is initiated as the bladder fills with urine? What does this cause?

Answer 69

Sensory stretch receptors (mechanoreceptors) –> micturition contractions

• vary in length of contraction and intensity
• generally increases as more urine added to bladder

Question 70

What do we call the term for how the Micturition reflex causes initial contracture of the detrusor muscle which causes further activation of the stretch receptors?

Answer 70

Self-regenerative

• further increase in reflex contraction
• this cycle repeats multiple times
• will being to fatigue and bladder relaxes

Question 71

What happens to the Micturition Reflex is the bladder is not emptied? What happens as the bladder continues to fill?

Answer 71

reflex is inhibited for minutes or hours

continues to fill–> increase in frequency of micturition reflex and intensity of it

Question 72

What happens as the Micturition reflex increases? Where does the reflex pass?

Answer 72

reflex passes through Pudendal Nerve –> to the external sphincter

then voluntary Relaxation of external sphincter–> and urination occurs

Question 73

Where are centers located that can facilitate or inhibit urination?

Answer 73

in the pons and cerebral cortex –> usually have FINAL control of micturition

Question 74

How do the Pons and cerebral cortex impact the micturition reflex while we do not have the desire to urinate? How do they effect the external bladder sphincter?

Answer 74

keep micturition reflex partially inhibited

ext. bladder sphincter is kept tonic contraction

Question 75

What do the Pons and cerebral cortex do when urination is desired?

Answer 75

cause concurrent micturition reflex and relaxation of external bladder sphincter

Question 76

What occurs during voluntary urination of the Micturition reflex?

Answer 76

1. contraction of abd. ms
2. increase pressure in bladder
3. increase urine that enters bladder neck (stretch walls and stimulate stretch receptors–initiate micturition reflex)
4. empties all (or most) of urine from bladder